Dual Role of a Novel Heteroleptic Cu(I) Complex in Visible‐Light‐Driven CO<sub>2</sub> Reduction

Bruschi, Cecilia; Gui, Xin; Rauthe, Pascal; Fuhr, Olaf; Unterreiner, Andreas‐Neil; Klopper, Wim; Bizzarri, Claudia

doi:10.1002/chem.202400765

Chemistry A European J

2024

DOI: 10.1002/chem.202400765

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Dual Role of a Novel Heteroleptic Cu(I) Complex in Visible‐Light‐Driven CO₂ Reduction

Cecilia Bruschi,

Xin Gui,

Pascal Rauthe

et al.

Abstract: A novel mononuclear Cu(I) complex was synthesized via coordination with a benzoquinoxalin‐2’‐one‐1,2,3‐triazole chelating diimine and the bis[(2‐diphenylphosphino)phenyl] ether (DPEPhos), to target a new and efficient photosensitizer for photocatalytic CO2 reduction. The Cu(I) complex absorbs in the blue‐green region of the visible spectrum, with a broad band having a maximum at 475 nm  (ε = 4500 M‐1cm‐1), which is assigned to the metal‐to‐ligand charge transfer (MLCT) transition from the Cu(I) to the benzoqui… Show more

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Molecular Copper–Anthraquinone Photocatalysts for Robust Hydrogen Production

Yuan,

Ming,

Yang

et al. 2024

J. Am. Chem. Soc.

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The development of robust and inexpensive photocatalysts for H 2 production under visible light irradiation remains a significant challenge. This study presents a series of square planar copper anthraquinone complexes (R 4 N)CuL 2 (R = ethyl, L = alizarin dianion (CuAA); R = n-butyl, L = purpurin dianion (CuPP), (2hydroxyanthraquinone)formamide dianion (CuAHA)) as molecular photocatalysts to achieve high long-term stability in visible-light-driven H 2 production. These complexes are self-sensitized by the anthraquinone ligands and serve as proton reduction photocatalysts without additional photosensitizers or catalysts. Under irradiation of blue light, complex CuAA produces H 2 in a mixture of H 2 O/DMF with undiminished activity over 42 days, giving a turnover number exceeding 6800. Electrochemical and UV−vis studies are consistent with an EECC mechanism (E: electron transfer and C: protonation) in the catalytic cycle. The initial photochemical steps involve conversion of both anthraquinone ligands to hydroquinones. Further lightdriven reductions of the hydroquinones followed by two protonation steps results in formation of H 2 . Dependence of the catalytic rate on the concentration of H 2 O suggests that either the generation of a Cu II −H intermediate by protonation or heterocoupling between Cu II −H and H + to produce H 2 is the turnover-limiting step in catalysis.

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Molecular Copper–Anthraquinone Photocatalysts for Robust Hydrogen Production

Yuan,

Ming,

Yang

et al. 2024

J. Am. Chem. Soc.

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show abstract

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Dual Role of a Novel Heteroleptic Cu(I) Complex in Visible‐Light‐Driven CO₂ Reduction

Cited by 1 publication

References 73 publications

Molecular Copper–Anthraquinone Photocatalysts for Robust Hydrogen Production

Molecular Copper–Anthraquinone Photocatalysts for Robust Hydrogen Production

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Dual Role of a Novel Heteroleptic Cu(I) Complex in Visible‐Light‐Driven CO2 Reduction

Cited by 1 publication

References 73 publications

Molecular Copper–Anthraquinone Photocatalysts for Robust Hydrogen Production

Molecular Copper–Anthraquinone Photocatalysts for Robust Hydrogen Production

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Dual Role of a Novel Heteroleptic Cu(I) Complex in Visible‐Light‐Driven CO₂ Reduction